Quantum Physics

Diffusion Gravity: Attraction Mechanism

Previous research papers [1,2] introduced the Diffusion Gravity model which invokes the process of mass diffusion to explain gravity, motion, acceleration, energy and extensibility of the model to larger scales. This article is an elaboration of that introductory description of the DG model, with the objective to describe more thoroughly the gravitational attraction mechanism. It will show that the mechanisms of virtual particle flux and quantum mechanical annihilation together reduce the density of virtual particles in the stream between mass objects. Virtual particle streams act as carriers to transport information about mass and direction of the source masses, which dynamically interact with other virtual particle fluxes from distant objects to induce gravitational attraction. As a quasi-deterministic model, and as a hybrid of classical Newtonian and quantum mechanical principles, the Diffusion Gravity model represents a quantum physical process that manifests as gravity at the classical level, which reflects in the Poisson equation for gravity; essentially these two component models are combined into a quantum mechanical representation of the mass diffusion phenomenon as the causality for gravity.

Submission history

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